Add to ORKGMethods for modeling, simulating and optimizing the dynamics, stability and performance of legged robot locomotion are discussed in this paper. It is demonstrated how these tools are used in the design, implementation and operation of a humanoid robot. The selection and integration of fundamental hard- and software needed for autonomous operation and high agility is presented for a recently developed fully-actuated 17 DoF humanoid. The results are additionally reported from simulations and gait optimizations completed during its development using a 3D dynamic biped model coupled with multiple physical and stability constraints
Biped locomotion has proven to be a very hard problem to solve. At current date, there exists no hum...
Industrial robots significantly improve the productivity of manufacturing operations performing vari...
© Springer International Publishing AG 2018. Humanoid robot related research keeps attracting many r...
Methods for modeling, simulating and optimizing the dynamics, stability and performance of legged ro...
Methods for modeling, simulation and optimization of the dynamics, stability, and performance of hum...
The complete development process for achieving walking motion with a recently constructed humanoid r...
In this paper key aspects and several methods for modeling, simulation, optimization and control of ...
From the dawn of time humans have been trying to recreate themselves with the technology of each age...
This paper presents a general method for generating walking primitives for anthropomorphic 3D--biped...
Even if it has been studied since the early '70s the locomotion task in the humanoid robotics field ...
Design and control of the bipedal humanoid robot locomotion are challenging areas of research. Accur...
The model-based investigation of motions of anthropomorphic systems is an important interdisciplinar...
The omnipresent tendency to “live easy” is a sign of our need for automatization. To enable for such...
The main goal of this thesis is to simulate the response of a humanoid robot using a specified contr...
Humanoid locomotion control is challenging due to the presence of underactuated dynamics, with const...
Biped locomotion has proven to be a very hard problem to solve. At current date, there exists no hum...
Industrial robots significantly improve the productivity of manufacturing operations performing vari...
© Springer International Publishing AG 2018. Humanoid robot related research keeps attracting many r...
Methods for modeling, simulating and optimizing the dynamics, stability and performance of legged ro...
Methods for modeling, simulation and optimization of the dynamics, stability, and performance of hum...
The complete development process for achieving walking motion with a recently constructed humanoid r...
In this paper key aspects and several methods for modeling, simulation, optimization and control of ...
From the dawn of time humans have been trying to recreate themselves with the technology of each age...
This paper presents a general method for generating walking primitives for anthropomorphic 3D--biped...
Even if it has been studied since the early '70s the locomotion task in the humanoid robotics field ...
Design and control of the bipedal humanoid robot locomotion are challenging areas of research. Accur...
The model-based investigation of motions of anthropomorphic systems is an important interdisciplinar...
The omnipresent tendency to “live easy” is a sign of our need for automatization. To enable for such...
The main goal of this thesis is to simulate the response of a humanoid robot using a specified contr...
Humanoid locomotion control is challenging due to the presence of underactuated dynamics, with const...
Biped locomotion has proven to be a very hard problem to solve. At current date, there exists no hum...
Industrial robots significantly improve the productivity of manufacturing operations performing vari...
© Springer International Publishing AG 2018. Humanoid robot related research keeps attracting many r...